A real-world representation of the shading from surrounding objects is extremely important for precisely calculating yields. You’re therefore looking for a program which takes shading into account as analytically as possible? PV.SOL® premium does just that! You can visualize all roof-integrated or mounted systems - even on the ground - with up to 5,000 modules in 3D and calculate shading on the basis of 3D objects. The user-friendly 3D menu navigation is divided into the six sections of terrain view, object view, module coverage, module mounting, module configuration and cable plan. Simply select possible shading objects and position them on the terrain or the building. PV.SOL® premium then calculates how often on average the modules are shaded by the objects and displays the result in graphical form.
Your benefit: the visualization in 3D mode provides you with detailed information on shadows cast at various times of the day and year, and consequently on likely reductions in yield. Through the detailed analysis of the shading of individual modules, the effect of power optimization on the system yield can also be precisely visualized in PV.SOL® premium. For the input of object data, 3D models in different file formats can now be imported into the software via a new interface.
This makes it possible to import realistic and detailed 3D objects created with photos taken from different perspectives (e.g. Using a drone). This will add another important tool to the already existing possibility of importing floor plans, cadastral maps and screenshots from web-based satellite maps (e.g. Google Earth) directly into the 3D visualization and thus integrating them to scale into a project. Flexibility has been significantly increased with regard to the configuration of the modules, which are automatically placed on an object. The new possibility of polystring configuration allows completely different strings to be connected parallel or in series to an MPP tracker.
This is required, for example, to connect an east-west roof parallel to one MPP tracker. Even different modules in a string can now be interconnected, e.g. Defective modules that are no longer available which need to be replaced by similar new ones.
Modules with different orientations can now also be connected in one string via the integration of power optimizers (e.g. SolarEdge, Tigo). These new functionalities increase the flexibility of the design process enormously and allow even more detailed configuration and simulation of the PV system. PV.SOL® premium leads you in a few easy steps to your target. First, you select one or more PV array buildings from a collection of common building types and sizes as required. Dormers, bay windows, walls, saw tooth roofs, and projecting roofs can also be covered with PV modules.
It is possible to model the available roof area with millimeter precision by entering measurements for the roof overhang and restricted areas. You then simply enter the objects that could cause shade – buildings, trees walls, masts, etc. – and size them. Objects in the distance can be taken account of as a horizon line. The configuration of the modules can be carried out automatically or manually.
You can decide whether you want to configure multiple module areas with one inverter or choose an inverter for each module area - or combine both. The current status of the system check for the complete configuration, each inverter and MPP tracker is displayed at all times in the configuration window. This means that you always have an overview of whether your chosen configuration is in the design, tolerance or restricted area. Another highlight is the option 'Suggest Configuration', which allows you to quickly and easily load the best configuration from your favorite inverters into the design. After configuration, the assignment of modules to strings can be individually adjusted, for example if required by the shading situation. You can enter detailed costs for the modules, inverters, or mounting in PV.SOL® premium.
Loans, discounts, depreciation, and tax payments, as well as the month that the system goes into operation, are all taken account of. Various feed-in tariffs and bands for systems on roofs, building facades, and ground-mounted systems can be saved and amended. PV.SOL® premium determines not just the capital value, but also the electricity production costs and the amortization period according to VDI Guideline 2067 (VDI: Association of German Engineers). The selection of multiple feed-in tariffs is possible, and their terms can be defined as follows: parallel, consecutive or offset.
Deeming can be considered when designing systems with self-consumption in the UK. The results are shown in a detailed table in the balance of costs.
Languages (Program): English, French, German, Italian, Polish, Spanish, Portuguese Languages (Presentation): English, French, German, Italian, Polish, Spanish, Portuguese, Albanian, Chinese, Croatian, Danish, Dutch, Hungarian, Norwegian, Swedish, Slovakian, Turkish Features:. Calculation of electric vehicles with battery storage system. High and Low Tariffs (HT/LT) for designing plants.
Buildings and objects can be extrudec using floor plan drawings and satellite maps. DC-coupled storage systems can also be simulated. DC systems with generator or load-sharing are available to select. Output of yield probabilities (e.g., P90). Sizing help for battery storage systems. Thermal flat and tube collectors as 3D objects. Optimization of the polygon drawing tool, e.g.
Definition of right angles. Visualization of the roof structure by displaying rafters and battens. All roof areas in the 3D visualization will now be issued with the most important dimensions in a plan. An export (.dxf) in most CAD programs is possible.
Copying of object groups including all structures and inverter configurations. Simple duplication of objects by specifying the number of duplicates and the distance between them.
Selection of custom textures for terrain. Autosave. Maximum Feed-in power cliping selectable at the inverter or at feed-in point. Simulation of lithium-ion batteries is possible. Optional simulation of minutes or hourly values. Open the heat pump database via the menu item 'Database' 'Heat pumps'.
Now select from the available records a heat pump of the same type with a comparable coefficient of performance (COP) and click with the right mouse button on it. Select from the context menu 'Create copy'.
In the definition window you can enter the model type of the heat pump under product. Enter the required characteristics according to the data sheet.
If you do not find all the test points on your data sheet you only have to change the test points which are available and leave the other according to the template. Save everything with 'OK'.
This can have various causes. Hot water priority circuit block the heating: Even if the performance of the heat pump and the heating element can satisfy the heating load together, it may be that due to the domestic hot water ( DHW) priority circuit not enough energy is delivered to the heating circuits. Domestic hot water circulation losses can increase the energy consumption in addition. = Check the domestic hot water heating: DHW temperature, size of the heat pump and the heating element and the limits of operation of the heat pump, size of the DHW standby tank. Monovalent operation mode: In the monovalent operation mode, the heat pump must deliver all of the energy. If the source temperatures are outside the operating limits, the heat pump is turned off and supplies the heating circuits thus insufficient ( e.g.
Due to frozen ground when using geothermal collectors or extremely cold ambient air when using air heat pumps). This effect may also occur on a daily basis in the fall, if a low heating demand is present at times with high source temperatures. = Operate the heat pump monoenergetic with a heating element. = Define a custom heat pump (a copy of an existing heat pump in the database) and adjust the operating limits. The yield of the collector circuit is delivered to the tank.
Above a certain size, an increase of the collector area causes that the energy input in the tank is greater than the demand and the tank is heated above the required temperature. At 90°C the collector circuit is turned off. A portion of the yield of the solar system is not used to meet the requirements, but there are increased tank losses generated. These “solar tank losses” are presented on the results page. For optimum sizing of the solar system you have to vary the size of the collector area, the tilt angle and the tank size. Design criteria are efficiency, solar fraction and the solar tank losses. In the program three different seasonal performance factors are shown on the ' Simulation Results' page.
In addition the SPF according to the VDI 4650 is presented. Generally the SPF is calculated as follows: SPF = benefit / expenditure Depending on the system boundaries which are considered, the energies taken into account differ. It should thus be compared only SPF of the same type. SPF Heat pump This SPF limits the energy balance to the heat pump. It is the largest of all SPF and can usually help in assessing the operation of the heat pump.
In the monoenergetic operation mode it is usually somewhat higher, since at very low source temperatures (= bad seasonal performance factor of the heat pump), the heating element takes over the supply. Benefit: The heat supplied by the heat pump heat. Expenditure: The electricity consumption of the heat pump without external pumps and without heating element.
SPF of heat pump system This SPF is a good benchmark for the entire system. The efficiency of the heating element is set at 100%. Furthermore, existing heating circuit pumps on the sink side are not considered.
Benefit: The heat supplied by the heat pump + the energy from the heating element. Expenditure: The electricity consumption of the heat pump + heating element energy consumption + electricity consumption of external pumps on the heat source side of the heat pump. SPF Generator system (Heat pump + Solar) This SPF is usually much higher than the previous SPF, because for the low expenditure of the solar circuit pump a large amount of energy is delivered as a benefit.
Benefit: The total heat supplied by the HP + the energy from the heating element + the energy from the solar collector. Expenditure: The electricity consumption of the heat pump + heating element energy consumption + electricity consumption of external pumps on the heat source side of the HP + electricity consumption of the solar loop pump. SPF according to VDI 4650 It is especially relevant for the approval of funding in Germany. This SPF is calculatedby using simple equations decribed in the VDI 4650 (2009).
So they may differ from the simulated SPF.
A real-world representation of the shading from surrounding objects is extremely important for precisely calculating yields. You’re therefore looking for a program which takes shading into account as analytically as possible?
Sol 7 Acorde
PV.SOL® premium does just that! You can visualize all roof-integrated or mounted systems - even on the ground - with up to 5,000 modules in 3D and calculate shading on the basis of 3D objects. The user-friendly 3D menu navigation is divided into the six sections of terrain view, object view, module coverage, module mounting, module configuration and cable plan.
Simply select possible shading objects and position them on the terrain or the building. PV.SOL® premium then calculates how often on average the modules are shaded by the objects and displays the result in graphical form. Your benefit: the visualization in 3D mode provides you with detailed information on shadows cast at various times of the day and year, and consequently on likely reductions in yield. Through the detailed analysis of the shading of individual modules, the effect of power optimization on the system yield can also be precisely visualized in PV.SOL® premium. For the input of object data, 3D models in different file formats can now be imported into the software via a new interface. This makes it possible to import realistic and detailed 3D objects created with photos taken from different perspectives (e.g.
Using a drone). This will add another important tool to the already existing possibility of importing floor plans, cadastral maps and screenshots from web-based satellite maps (e.g. Google Earth) directly into the 3D visualization and thus integrating them to scale into a project. Flexibility has been significantly increased with regard to the configuration of the modules, which are automatically placed on an object. The new possibility of polystring configuration allows completely different strings to be connected parallel or in series to an MPP tracker. This is required, for example, to connect an east-west roof parallel to one MPP tracker. Even different modules in a string can now be interconnected, e.g.
Defective modules that are no longer available which need to be replaced by similar new ones. Modules with different orientations can now also be connected in one string via the integration of power optimizers (e.g. SolarEdge, Tigo). These new functionalities increase the flexibility of the design process enormously and allow even more detailed configuration and simulation of the PV system. PV.SOL® premium leads you in a few easy steps to your target.
First, you select one or more PV array buildings from a collection of common building types and sizes as required. Dormers, bay windows, walls, saw tooth roofs, and projecting roofs can also be covered with PV modules. It is possible to model the available roof area with millimeter precision by entering measurements for the roof overhang and restricted areas. You then simply enter the objects that could cause shade – buildings, trees walls, masts, etc. – and size them. Objects in the distance can be taken account of as a horizon line. The configuration of the modules can be carried out automatically or manually.
You can decide whether you want to configure multiple module areas with one inverter or choose an inverter for each module area - or combine both. The current status of the system check for the complete configuration, each inverter and MPP tracker is displayed at all times in the configuration window. This means that you always have an overview of whether your chosen configuration is in the design, tolerance or restricted area. Another highlight is the option 'Suggest Configuration', which allows you to quickly and easily load the best configuration from your favorite inverters into the design. After configuration, the assignment of modules to strings can be individually adjusted, for example if required by the shading situation. You can enter detailed costs for the modules, inverters, or mounting in PV.SOL® premium. Loans, discounts, depreciation, and tax payments, as well as the month that the system goes into operation, are all taken account of.
Various feed-in tariffs and bands for systems on roofs, building facades, and ground-mounted systems can be saved and amended. PV.SOL® premium determines not just the capital value, but also the electricity production costs and the amortization period according to VDI Guideline 2067 (VDI: Association of German Engineers). The selection of multiple feed-in tariffs is possible, and their terms can be defined as follows: parallel, consecutive or offset. Deeming can be considered when designing systems with self-consumption in the UK. The results are shown in a detailed table in the balance of costs.
Languages (Program): English, French, German, Italian, Polish, Spanish, Portuguese Languages (Presentation): English, French, German, Italian, Polish, Spanish, Portuguese, Albanian, Chinese, Croatian, Danish, Dutch, Hungarian, Norwegian, Swedish, Slovakian, Turkish Features:. Calculation of electric vehicles with battery storage system. High and Low Tariffs (HT/LT) for designing plants. Buildings and objects can be extrudec using floor plan drawings and satellite maps. DC-coupled storage systems can also be simulated.
DC systems with generator or load-sharing are available to select. Output of yield probabilities (e.g., P90). Sizing help for battery storage systems. Thermal flat and tube collectors as 3D objects. Optimization of the polygon drawing tool, e.g. Definition of right angles. Visualization of the roof structure by displaying rafters and battens.
All roof areas in the 3D visualization will now be issued with the most important dimensions in a plan. An export (.dxf) in most CAD programs is possible. Copying of object groups including all structures and inverter configurations. Simple duplication of objects by specifying the number of duplicates and the distance between them.
Selection of custom textures for terrain. Autosave. Maximum Feed-in power cliping selectable at the inverter or at feed-in point.
Simulation of lithium-ion batteries is possible. Optional simulation of minutes or hourly values. Open the heat pump database via the menu item 'Database' 'Heat pumps'.
Now select from the available records a heat pump of the same type with a comparable coefficient of performance (COP) and click with the right mouse button on it. Select from the context menu 'Create copy'. In the definition window you can enter the model type of the heat pump under product. Enter the required characteristics according to the data sheet.
If you do not find all the test points on your data sheet you only have to change the test points which are available and leave the other according to the template. Save everything with 'OK'. This can have various causes. Hot water priority circuit block the heating: Even if the performance of the heat pump and the heating element can satisfy the heating load together, it may be that due to the domestic hot water ( DHW) priority circuit not enough energy is delivered to the heating circuits. Domestic hot water circulation losses can increase the energy consumption in addition. = Check the domestic hot water heating: DHW temperature, size of the heat pump and the heating element and the limits of operation of the heat pump, size of the DHW standby tank.
Monovalent operation mode: In the monovalent operation mode, the heat pump must deliver all of the energy. If the source temperatures are outside the operating limits, the heat pump is turned off and supplies the heating circuits thus insufficient ( e.g. Due to frozen ground when using geothermal collectors or extremely cold ambient air when using air heat pumps). This effect may also occur on a daily basis in the fall, if a low heating demand is present at times with high source temperatures. = Operate the heat pump monoenergetic with a heating element.
= Define a custom heat pump (a copy of an existing heat pump in the database) and adjust the operating limits. The yield of the collector circuit is delivered to the tank. Above a certain size, an increase of the collector area causes that the energy input in the tank is greater than the demand and the tank is heated above the required temperature. At 90°C the collector circuit is turned off. A portion of the yield of the solar system is not used to meet the requirements, but there are increased tank losses generated. These “solar tank losses” are presented on the results page. For optimum sizing of the solar system you have to vary the size of the collector area, the tilt angle and the tank size.
Design criteria are efficiency, solar fraction and the solar tank losses. In the program three different seasonal performance factors are shown on the ' Simulation Results' page.
In addition the SPF according to the VDI 4650 is presented. Generally the SPF is calculated as follows: SPF = benefit / expenditure Depending on the system boundaries which are considered, the energies taken into account differ.
It should thus be compared only SPF of the same type. SPF Heat pump This SPF limits the energy balance to the heat pump. It is the largest of all SPF and can usually help in assessing the operation of the heat pump. In the monoenergetic operation mode it is usually somewhat higher, since at very low source temperatures (= bad seasonal performance factor of the heat pump), the heating element takes over the supply. Benefit: The heat supplied by the heat pump heat. Expenditure: The electricity consumption of the heat pump without external pumps and without heating element. SPF of heat pump system This SPF is a good benchmark for the entire system.
The efficiency of the heating element is set at 100%. Furthermore, existing heating circuit pumps on the sink side are not considered. Benefit: The heat supplied by the heat pump + the energy from the heating element. Expenditure: The electricity consumption of the heat pump + heating element energy consumption + electricity consumption of external pumps on the heat source side of the heat pump. SPF Generator system (Heat pump + Solar) This SPF is usually much higher than the previous SPF, because for the low expenditure of the solar circuit pump a large amount of energy is delivered as a benefit. Benefit: The total heat supplied by the HP + the energy from the heating element + the energy from the solar collector.
Expenditure: The electricity consumption of the heat pump + heating element energy consumption + electricity consumption of external pumps on the heat source side of the HP + electricity consumption of the solar loop pump. SPF according to VDI 4650 It is especially relevant for the approval of funding in Germany. This SPF is calculatedby using simple equations decribed in the VDI 4650 (2009). So they may differ from the simulated SPF.
December 2017 PV.SOL premium 2018 Release 4 (December 13th, 2017) Following fixes have been made:. Monthly values were sometimes not displayed in the exported.csv file. Program crash when leaving the dialog when a new energy supplier was created. When opening projects with from-grid tariffs that were not included in the database, they were entered incorrectly into the database. Further changes:. If during the first installation, the virus scanner prevents copying of the sample projects, a message appears that PV.SOL has to be defined as an exception in the virus scanner. The program is then closed.
PV.SOL premium 2018 Release 3 (December 08th, 2017) Following fixes have been made:. Crash when configuring inverters with unused MPP trackers in the 3D visualization. PV.SOL premium 2018 Release 2 (December 07th, 2017) Following fixes have been made:. 3D visualization:. Crash during calculation of the shade frequency distribution and the simulation of the shading ratios in the southern hemisphere.
The collision can now be deactivated for imported 3D models. Crash when removing the last segment of a 3D polygon. The orientation of the parabolic antenna remains unchanged after re-opening the 3D visualization. Improved visualization of the 3D object parabolic antenna. Parabolic antenna can now be copied without crashing.
MeteoSyn:. Crash during simulation with minute values if the ProgramData directory does not exist. Corrupt database has been fixed. Crash during simulation of 3D Offgrid systems without calculated shading ratios. Crash when switching from a configuration with polystring to a configuration without polystring. Sometimes the program crashed when changing the module area in the inverter configuration window.
Sometimes the program crashed when viewing the result graphics of 3D projects. Incorrect assignment of module shading when using power optimizers in combination with polystring configuration. PV.SOL premium 2018 Release 1 (November 29th, 2017) The following new features are included:.
Import of 3D data from various sources, e.g. City models, terrain models, drone flights, CAD programs. A large number of file formats can be read:. DirectX (.x). Wavefront Object (.obj). Collada (.dae).
Blender 3D (.blend). 3ds Max 3DS (.3ds).
3ds Max ASE (.ase). LightWave (.lwo). Stanford Polygon Library (.ply). Stereolithography (.stl). Milkshape 3D (.ms3d).
In the 3D planning there is a new string plan in the style of our dimensioning plan available. Polystring configuration - Configuration of module surfaces/modules with different orientation or tilt to one MPP tracker, e.g. East-West roof modules to one MPP tracker. Configuration with selection of power optimizers (SolarEdge, Tigo, Maxim) and inverters. The U-I curve as well as the U-P curve will be shown for each simulation step. Different diffuse radiation models can be selected for the simulation.
Improved performance, simulation up to 50% faster. The number of used storage systems and electric vehicles can now be entered easily in the corresponding definition window. New graphics for the energy flows. Revised Autosave function:. Filenames are more unique, which helps to better identify the Autosave files and assign them to projects. Autosave files of projects currently in progress, as well as autosave files of older crashed projects are displayed and managed. If a project is closed normally, its autosave files will be deleted automatically.
When crashed, the autosave files are kept for 14 days, but can also be deleted manually in the program. Calculation of the parameters for the two-diode model has been revised. Energy balance: Distribution of losses due to module-specific partial shading, low light behaviour and diodes has been improved. Calculation of cable losses has been revised. Calculation of rated currents for circuit breakers and RCDs has been revised. Additional languages for project report: Chinese, Arabic and Albanian. Offgrid systems can now also be planned with components from any manufacturers, not only SMA.
PV.SOL premium 2017 Release 9 (April 25th, 2017) The following new features and changes have been made:. Czech as another language for the presentation report. 3D: Increased maximum number of possible module row formations of 500. Time shift of tariffs with different tariff times is only availible if using net metering tariffs. When simulating with net metering, the inverter's own consumption is removed from the diagrams.
EnEV calculation is performed according to new regulation only with standard values of the peak power coefficient K pk. Following fixes have been made:. Problems with the registration of the program if maintenance has been ended for the serial number used.
The consumption of the electric vehicle was not shown in the diagrams if using net metering. Error in the time shift of tariffs with different tariff times if using net metering. 3D: When editing module configurations, a mouse click on another module surface caused a crash. 3D: Error in the display of the modules if using empty MPPs and module surfaces.
3D: Error when closing the options dialog. 3D: Error when copying system inverters. 3D: Copying inverter configurations caused an error when loading the cable plan.
3D: Crash when editing module information via the tree view. 3D: Error when deleting coverable objects when they were outside the terrain. PV.SOL premium 2017 Release 8 (February 23rd, 2017) Following fixes have been made:.
After reloading a project file, the savings by own consumption were no longer considered. No compensation for surplus when using net metering. Errors in the input of an exponential module degradation of the first module area corrected. The first entry was reset to 1 year. No presentation could be created if more than 5 module areas with defined horizon lines were planned.
When using a location above the polar circle, the presentation could not be generated because no horizon line could be created./li. Partially, the PV-optimized charging of the electric vehicle was not correct.
Occurred when the electric vehicle was only briefly at the loading station. Occasional crash of license management fixed.
Partly, the program has fallen back into the test mode despite successful registration. 3D: When copying system inverters, the assignments of the modules were partially incorrect. 3D: Error in the displaying of the configuration when using inverters with an unused MPP tracker. 3D: Problems with the mouse after moving the field of view with the right mouse button.
3D: Calculation of the module row spacing for minimal shading was not possible, even if the roof surfaces had only slight inclinations to the east or west. It is now possible for inclinations up to 3°.
Brazilian tariffs corrected. Mistakes in the Portuguese translation. PV.SOL premium 2017 Release 7 (January 31st, 2017) Following fix has been made:. Crash during program start, if the user has saved an individual project configuration as default. PV.SOL premium 2017 Release 6 (January 31st, 2017) The following new features are included:. Planning of systems with electric vehicles and battery storage systems is now possible.
New battery materials for lithium-ion batteries: Lithium titanate, LiNiCoO2, LiNiMgCoO2. Output of the diffuse irradiation in the diagram editor. Enhanced definition options for from-grid and net metering tariffs. The net metering consumption can now be defined either by means of an annual value or the individual monthly values.
Database extended by additional heat pump load profiles. Improved calculation of losses by module-specific partial shading and low-light behavior. Output of the losses in the battery of the electric vehicle. The saving path of the presentation report is now conform to the path for the project files by default.
3D Visualization:. Improved rendering of shadows due to the introduction of volume shadows. When zooming the screen view, the view is now enlarged or reduced to the point targeted by the mouse. The screen view can now be moved with the right mouse button pressed. Navigation panel to pan and tilt the screen view and displaying of the building orientation.
Selected module rows can now be arranged automatically right-aligned to the edge of the module area. Rafters can now be copied. Selection of a reference edge for extruded pitched roofs. Polygon segments can now also be deleted. For extruded arbitrary open area, the longest edge is no longer defined as the reference edge. Following fixes have been made:. Limitations of the inputs in the economy of off-grid systems removed.
In the economics of off-grid systems, entries with a cost of more than 100 are now possible. In the graphics PV energy during the observation period, the degradation is now considered monthly. Partial errors in MPP tracking. Partial errors when allocate the shading of identical module configurations. A new entry has been created in the 'Electric vehicle' database despite 'Cancel'.
Net metering error: Surplus remuneration when start of operation date is not at the beginning of the year. 3D-Visualisierung:. Modules could not be separated or integrated in/from a configured system.
In the case of facade systems the string sorting was wrong. The fixation could be released when the fixed polygon edge was moved back and forth.
Crash in the dimensioning plan of roofs with slightly tilted ridge. Error when placing module rows with mouse frame. When extruding buildings with ridge, polygons were not recognized when they crossed the outer 3D polygons.
If another 3D polygon crossed the selected 3D polygon, it was incorrectly recognized as ridge, although it had more than 3 points. Partially, arbitrary open surfaces with small angles were not extruded correctly. Fireproof walls / rotating walls were not rotated with the polygon during extrusion. The restricted distances of the parabolic antenna has not been taken into account. In the case of module areas which were shaped approximately like a triangle (for example, gables), it could crash after extrusion during the automatic module coverage. Partially the shadow on the module rows was not displayed correctly.
Crash when the texture of an arbitrary open surface has been changed. PV.SOL premium 2017 Release 5 (December 07th, 2016) Following fixes have been made:. 3D: 3D planning could not be opened if the dimensions of a default texture in the program, e.g. Roof tiles, were changed and afterwards the roof was covered with modules. 3D: Partially the 3D-planning could not be opened if self-created textures were used. Crash in the diagram editor if a simulation in minute steps has been performed and energy from grid, consumption or grid feedi-in has been selected. Crash if the runtime of the degradation was defined much smaller than the assesment period in the economic efficiency calculation.
Registration of the program is now also available in Portuguese. PV.SOL premium 2017 Release 4 (November 17th, 2016) Following fix has been made:. Crash during program start, if the user has saved an individual project configuration as default. PV.SOL premium 2017 Release 3 (November 16th, 2016) Following new features are included:. 3D: Polygons can now also be extruded even if they are overlapping.
3D: Improved display of edge lengths when using the polygon tool. 3D: Minimum thickness of rafter has been changed. Now it is also possible to enter thicknesses smaller than 10 cm.
3D: Multipy of not configures module and module row formations is now possible. Following fixes have been made:. In some case the simulation was impossible. Instead, the error message 'System.IO.FileNotFoundException: Could not load file or assembly System.Net.Http' appeared. After reloading projects with own consumption, the savings were always 0. Load profiles with consumptions higher than 1 million kWh can be imported / entered again. Partially, PV.SOL premium 2017 was not running due to a virus scanner.
Partially, when planning projects with electric vehicles the self-consumption were higher than the defined requirements. Error when car battery was very heavily charged and discharged. In some cases, the first graphic 'Production forecast' was misrepresented. Legend of the result graphic 'Coverage of consumption' was wrong.
For graphics with two Y axes, sometimes the axes were not scaled equal. Crash when changing the program language after selecting SolarEdge Power Optimizer. Crashes when the data of some battery systems were displayed. Problems with the maintenance end after extending the software maintenance. 3D: When deleting modules in the configuration, the tree view was not been updated. This led to program crashes. 3D: Collision with attica is now working.
3D: Rafters and roof battens were not copied correctly. 3D: The tree view was not been updated after filling an area with modules or module rows.
3D: When copying coverable objects with module formations, the maximum number of modules was exceeded. 3D: Crash when activating coverable objects with too small dimensions. 3D: Module row no longer jump left when moving. 3D: Objects are now colliding with edge distances. PV.SOL premium 2017 Release 2 (October 26th, 2016) Following fixes have been made:. Wrong calculation of level of self-sufficiency when simulating with storage systems.
Program does not appear on screen when it was closed in minimized state before. When using a DC storage system, the own consumption was not shown correctly on the overview page of the presentation. If the installation orientation of an already installed reference module was changed, then the module textures were displayed distorted. Crash when loading projects which have been saved after changing the installation orientation of already installed reference modules. Incorrect module textures if a self-created texture was previously used in the project. In some cases, no shading simulation was performed after it was previously ignored.
DC intermediate circuit coupled strage systems can now also be simulated if several inverters are used for the module configuration. After switching from a system with DC coupled storage system to a system with an electric vehicle some of the car results were displayed wrong. Partial Crashes when creating the presentation. Partial Crashes when opening the definition window of from-grid tariffs.
The defined preservation mode times of the batteries were not adopted correctly when simulationg off-grid systems. Partial Crashes when opening the charging strategy window of storage systems. 3800 useful chinese sentences pdf merger. Values entered in the charging strategy of a storage system were partially overwritten when the window was reopened.
Various translation errors. Network license: Initialization file from PV.SOL premium 2016 has been copied. PV.SOL premium 2017 Release 1 (October 17th, 2016) The following features are included:. Simulation of electric vehicles in combination with PV systems. DC-coupled storage systems.
High and low tariffs and definition of tariff times for reference and net metering tariffs. Feed-in tariffs: Remuneration classes can now also be defined in kWh. Output of yield probabilities (e.g., P90). Several curves can now be displayed simultaneously in the diagram editor.
Sizing help for battery storage systems. Additional diagrams on the results page. Circuit diagram and dimensiong plan are now zoomable.
Output of battery losses. Output of the influence of the albedo in the energy balance. New program language Portuguese. 3D visualization:. Mounted and roof-parallel modules can now be configured together on an inverter. The number of modules of a module row can now be changed directly in the editor.
Module rows can now be cutted directly in the editor. When editing 3D polygons, the dimensions are now shown. 3D polygons can be made right-angled. For extruded buildings, the edge to which the roof is inclined can be defined. Saw tooth roofs are now rotatable.
New objects (for example, thermal flat and tube collectors, roof windows, facade windows, front door) and improved textures. The frame and cell color of the modules can now be changed. This makes the presentation of the modules more realistic.
Definition of the AC cabling in the 3D cable plan. An own system image of the 3D project can now be set (can be selected from a screenshot). The shading simulation can now be skipped if the shading is irrelevant. Nevertheless, a yield simulation can be carried out. For 3D objects, you can now define restricted distances and edge distances per edge.
Modules from module row formations can now also be selected individually for the configuration with an inverter. More influence on the sorting of inverter connections. In the module configuration window, combined configured module areas are displayed in one view. PV.SOL premium 2016 Release 6 (July 04th, 2016) Following fixes have been made:. Error when using the quick selection of products, if the database was no longer on delivery state. Crashes when using the dimensioning plan.
PV.SOL premium 2016 Release 5 (June 09th, 2016) Following fixes have been made:. PV.SOL premium has been partly not properly closed (pvsolpremium.exe remained in Task Manager). Generation of false autosave files when PV.SOL premium was not properly closed. Crash in economic calculation if no supply concept was selected. Crash when editing a PV module.
Error when creating sites in MeteoSyn. Improvement of the Portuguese translation. Error in the calculation of tracking systems. Error in the 2D simulation at very low irradiation. PV.SOL premium 2016 Release 4 (March 17th, 2016) Following fixes have been made:. MeteoSyn: Self-created climate data records from older versions could not be loaded when using the drop-down menu.
Instead, the first location of the list has been selected. MeteoSyn: Partially, climate data records were loaded with wrong, very high irradiation values when selecting them from the drop-down menu. 3D: Crashes when reading or creating a horizon line. 3D: The window 'Group module areas' was not displayed correctly when a user-defined text size was used in the display options of Windows. PV.SOL premium 2016 Release 3 (March 9th, 2016) Following new features are included:.
New climate data records based on Meteonorm 7.1 with the averaging period 1991-2010. Calculation of the optimum module tilt angle.
The inverter selection window shows now also not matching inverters. 2D: Selected modules and inverters can now applied to all module areas. Accelerated database access. Multiple selection in the inverter selection window. Screenshots in the presentation are now in landscape mode. Extended load profile database. Horizon and module degradation can now be entered with decimals.
Easier selection of the time interval in the diagram editor. Charging strategy of off-grid systems brought into line with charging strategy of on-grid systems.
3D: To place module rows a frame can be drawn. 3D: Frames to place modules can be drawn multiple times. 3D: The frame when editing module rows now adapts to the orientation of the module rows.
3D: Improvement of the distribution of the strings in meandering course./li Following fixes have been made:. Crash when images with very low resolution were used in Photo Plan. Crash on the inverter window if no module area was selected.
Crash when clicking on the title of the table in the financial analysis. Crash during the inverter configuration due to the auto save function. Crash when importing older PV.SOL projects with modules which were not included in the database.
Crash when the default climate data record could not be loaded. Crash in the battery system selection window. The circuit diagram has been corrected when using 1-phase grid.
Better performance when using the option 'Calculate sizing factor'. 3D: Error when loading projects with map import where the textures of extruded objects were edited multiple times. 3D: Crash when 'Edit texture' dialog to load an image file has been canceled.
3D: In the polygons of restricted areas no additional corner points could be entered. 3D: The restricted distances of sheds were not saved correctly. 3D: Crash when saving the shade frequency distribution when no direct shading ratios could be determined, but a horizon was present. 3D: Error when changing multiple tiled textures on the sides of extruded objects. Textures were shown upside down. 3D: Error when loading project with mounting systems where the reference module was missing.
3D: Improvement of the screen display when using large fonts option in Windows. 3D: Error when copying module formations. 3D: Error when copying inverter configurations. 3D: In some projects the projecting roofs were not loaded with the correct inclination.
PV.SOL premium 2016 Release 2 (December 10th, 2015) Following fixes have been made:. The presentation was not displayed when in the configuration only the roof plan was selected for the plans section, but the graphic coverage option was not used in the planning. The presentation was not displayed when in the configuration only the dimensioning plan was selected in the plans section, but no dimensioning plan was present in the project. Occurred when importing older projects. Some logos were blurred in the presentation.
In the presentation, the maximum feed-in power clipping was displayed as a percentage value between 0 and 1 instead of between 0 and 100%. The tables on the results page now have a line break when needed.
Projects with no longer available products could not be loaded. Crash when selecting no longer available products. The displayed temperature in the system check was 273,15 K too low. When selecting a larger text size in the Windows Control Panel (e.g. 125%), some fields were not displayed. For example, the tilt angle could not be defined in the 2D planning. The efficiency curve of the battery inverter was not saved when creating a new battery system.
When creating a new battery system, changes in the charging strategy of the battery inverter not immediately appear in the dialog window. Sometimes the setting of the SOC in the charging strategy has not been considered in the simulation.
In the plant picture the pv system was partially obscured when objects were placed in front of the plant. Crash when scrolling with the mouse. Occurred when 3D objects (such as open spaces) were added to the coverable objects, then activated and afterwards immediately deleted. Module formations could not be sorted. Module Configurations could not be sorted on the string level. The starting point of the sorting of configured modules was not set correctly. When multiplying objects with module rows in 3D, the module rows were displayed incorrect.
The joint move of multiple module row formations is now possible in 3D. When using extruded objects of the type 'any 3D objects' on a pitched roof or hang the base dimensions ere not calculated correctly. The exchange of individual modules of a configuration was delayed. Crash during automatic module row coverage when rows were separated and then moved. If no connection to the server could be established during the registration the message for the manual registration did not appear.
If US units were selected no US units were shown in the presentation. Crash on program start, when the initialization file could not be read correctly. PV.SOL premium 2016 Release 1 (November 23rd, 2015) The following features are included:. Economics: Net-Metering. 1-axis und 2-axis tracking of PV systems in the 2D planning. SMA Off-Grid systems with AC coupling. Network License.
Import and selection of multiple load profiles. Easy configuration of pv systems whith multiple system inverters. Displaying of simulation results per module area in the project report. Additional languages for project report: Slovak, Norwegian, Croatian, Portuguese, Hungarian.
3D visualization:. Creating buildings and objects based on floor plan drawings and maps. This allows to create any building shapes with a flat roof. Visualization of the roof structure by displaying rafters and battens.
All roof areas in the 3D visualization will now be issued with the most important dimensions in a plan. An export (.dxf) in most CAD programs is possible. Copying of object groups including all structures and inverter configurations. Simple duplication of objects by specifying the number of duplicates and the distance between them.
Selection of custom textures for terrain. PV.SOL premium 7.5 Release 4 (June 5th, 2015) The following new features are included:. The maximum feed-in power clipping can now be set to 0%. The maximum number of some 3D objects has been increased:.
Trees on 50. Chinmeys on 50. Vents on 50. Restricted areas on 50. Parabollic antenna on 50. Walls on 50 Following fixes have been made:. Import of horizon files was not possible in 3D.
Error in the calculation of AC cable losses. Error in the calculation of interest when using annuity loan. Crash if files in the Temp directory already exist. Crash on projects with identical module surface IDs. Crash when loading some projects wich include a defective shadow frequency distribution PV.SOL premium 7.5 Release 3 (May 5th, 2015) The following new features are included:. 3D: When using the option 'Group module areas' you can now also group module areas with a different orientation and inclination of up to 2°. All dialog windows can be maximized.
The presentation can be optionally displayed in high resolution. The values of each chart can be copied as a table to the clipboard.
For a better explanation the installation type of the modules is shown with icons. Following fixes have been made:. Error when loading projects with self-created inverters. Crash in MeteoSyn. Crash in the absence of MeteoSyn. Crash when the temp folder is missing. Error when saving the.ini file.
Crash when saving PDF files. Crash when using huge images in the presentation.
Crash due to simultaneous access to the features.xml when multiple starting the program. Crash if corrupt configurations are present. 3D: In certain cases, the orientation of identically orientated modules could differ. 3D: A change of the coverable object will not change the work mode. 3D: Improved presentation when using large fonts. 3D: Crash when simulating the shading frequencies using climate locations with latitudes like e.g.
Siegburg - Latitude exactly 50° 0' 0'. PV.SOL premium 7.5 Release 2 (March 26th, 2015) The following new features are included:. Maximum limit of the battery inverter power has been increased. The module/inverter configurations in the circuit diagram are arranged from top to bottom.
3D: Maximum tree height has been increased to 200 m. Following fixes have been made:. Crash at program start if the Microsoft.Net Framework was not up to date. Error in the maximum feed-in power clipping at the inverter.
Crash when viewing a presentation. Crash of the system check when using copied module areas. Crash when using the legend in the circuit diagram. Font in the cable plan has been optimized. Error when importing a horizon file in a plinning on the southern hemisphere.
Crash when using lead-acid battery. Crash when using small lithium batteries. Crash when using special characters in the climate record.
PV.SOL premium 7.5 Release 1 (February 26th, 2015) Following new features are included:. Maximum Feed-in power clipping selectable at the inverter or at feed-in point. Simulation of lithium-ion batteries is now possible. Optional simulation of minutes or hourly values. Figures of all simulation results, either as a time series or carpet plot. The project report is now also available in Turkish, Dutch, Swedish and Danish.
The module efficiency curves are now available in the database dialog. Generating counter can now be deselected in the circuit diagram. The default climate data record can now be set directly on the 'climate, grid and system type' page. In MeteoSyn the number of climate data for Australia and Turkey has been increased. Regional settings are set automatically when selecting the climate location. Project files from previous versions can now also be imported in the 'Open Project' dialog. Battery storage systems are now also included in the database.
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3D visualization:. The object administration is now available as side menu (tree view) in all operating modes. The roof pitch of a building can now be entered directly.
PV.SOL premium 7.0 Release 5 (December 15th, 2014) Following fixes have been made:. Rounding error in the calculation of the displayed useable battery power on the the battery system page. Bug in the calculation of monthly mean values of the temperature in the Excel export. Error in the font size of the circuit diagram when planning large systems. Crash when using quick selection for non-existing climate data.
Crashes when loading and saving projects. Crash when creating directories on first progam launch. Crash when starting the project report.
Incorrect application of prife of electricity sold to third party when multiple feed-in tariffs have been selected. The amount of total remuneration did not correspond to the sum of the individual payments if the start of operation date was within the month. PV.SOL premium 7.0 Release 4 (October 13th, 2014) Following new features are included:. The yield reduction due to shadowing is now displayed on the results page and in the project report. A new shading simulation is now performed only if a change of the shading parameters within the 3D visualization took place. Improved sorting in the configuration of module rows.
The specifications for the sorting of rows of modules can now be defined separately. Easier selection of reference modules in the 3D visualization. Following fixes have been made:.
After importing a load profile the imported data record was not pre-selected. Error when replacing a reference module in the 'Administration of Reference Modules' window. PV systems in the polar regions can now be simulated in 3D. Calculation error in the shading simulation for systems without shading object, but with relevant horizon shading. Crash during the simulation of diffuse shading. Crashes when leaving the 3D visualization.
Error when leaving the 3D visualization without adopting the data. The last saved state of the project was adopted. Rounding errors in the calculation of the usable battery energy displayed on the window 'Battery System'. PV.SOL premium 7.0 Release 3 (September 8th, 2014) Following fixes have been made:. Error in the yield calculation of pv systems with module inverters. The mismatch losses are now automatically set to zero. Crash during manual inverter configuration.
Problems when displaying the company logo in the presentation. PV.SOL premium 7.0 Release 2 (August 13th, 2014) The following new features are included:. Loading of complete battery storage systems of known manufacturers. Define and save your own complete battery storage system.
Existing inverter configurations in 3D can now be edited. The configuration has previously not to be deleted. Quick selection of climate data records. Output of the surface of the PV generator on the PV modules window.
Selection of a split-phase system is now possible. Selection of the units for the Excel export of the simulation results. Excel export of monthly and annual values of the simulation results. In the 3D planning the limit of the maximum number of inverters (200) has been lifted. In the configuration options of the 3D planning it can now be set for the inverter, MPP and string level, whether you want to sort. In 3D now mounted systems can be placed on a 90° facade.
Avoided CO 2 emissions do not appear in the project report, if the value of the specific emission is set to zero. Cable lengths up to 10000 m and cable cross sections up to 500 mm 2 are now possible. If you select the option power optimizers in the 3D planning, the mismatch losses are automatically set to zero. Drag & drop of horizon files, project image and company logo is now possible. Drag & drop to import Expert/Pro files. Acceleration of shading and yield simulation.
In the inverter configuration tree in the 3D planning multiple electrical nodes can be selected and sorted. However, this must be sibling nodes (eg.
Strings of one MPP tracker). Wiring diagram in the project report now contains a legend. If more than 20 inverters are used in the planning only combined results are presented.
The economic calculation can now consider Deeming. Following fixes have been made:. Crash due to memory shortage.
Crash when the option 'Calculate sizing factor from climate data and module inclination' was selected and set as default. Crash if the directory of the ini file was not available. Errors in the system check. Improved resolution of the circuit diagram in the PDF export. Improved resolution of some pictures in the project report.
Fixed rare crash in the characteristic model of the modules. Calculation error when using a price of electricity sold to a third party. Photo Plan and roof plan diagram on the side of PV modules were not visible on small screens. Import of standardized load profiles was not possible. Crash when saving the project image.
Error in the calculation of the diffuse shading of facade modules. When rotating buildings on slopes the collision didn't work correctly. Buildings could extend beyond the edge. Sometimes the total number of modules was displayed incorrectly. Error after multiple-copy of module formations.
When turning the coverable object the formations moved. When a 3D object was rotated within the Edit menu, then the min/max values of the other fields were not updated. Thus they could not be edited without a collision occurred. Problems when editing a building of the type 'high-rise' in 3D. Multiple copy: When copying a gable dormer on an opposite roof, it was not rotated. Multiple copy: When an object was copied to a location where an object was already present, then it could still be dropped.
The objects then were moved into each other. In some cases old screenshots were not deleted and then appeared in a new project. PV.SOL premium 7.0 Release 1 (June 4th, 2014) Following features are included:. New modern user interface.
Planning and design of on-grid systems with full feed-in, net metering and battery storage. Climate data:.
450 records for Germany with the averaging period from 1981 to 2010. Over 8000 records worldwide, based on Meteonorm 7.0 with the averaging period from 1986 to 2005. Generation of own climate data records based on monthly averages or interpolation. Pre-selection of a reference climate data set.
The climate data set used in planning is now stored in the project file. Define your electrical consumption based on load profiles or own readings. Plan with any number of pv areas.
New database format with favorite’s management, as well as search, sort and filter function. Quick selection of pv modules and inverters via combo boxes.
New concept of inverter connection:. Automatic and manual inverter configuration is possible.
Free selectable combinations of inverters. The inverter concepts system inverter and multiple inverters can be mixed.
Automatic configuration of system inverters. Via the button “Suggest configuration” the best configuration based on the selected inverters can be loaded into the planning. Instant feedback from the system check.
The current status of the check for the complete system, each inverter and MPP tracker is directly shown in the inverter selection (green, yellow, red). Simple SMA Tripower configuration.
Planning in 3D:. Visualization of the potential pv system and the shading objects in a 3D representation. Visualization of the expected course of shade at different hours and seasons. Detailed shading analysis and simulation of the yield reduction due to shading.
Planning up to a system size of 5000 modules. The installation situation (type of ventilation) can now be specified individually for each module formation. The total number of modules will be continuously displayed in the status bar. Output of k2base compatible XML files. In k2base the right K2 mounting system can then be determined and a parts list can be created (only for flush-mounted systems). Planning in 2D:. Graphical Coverage (roof view) with freely configurable roof shapes.
Arbitrary orientation of mounted systems. System planning based on a digital picture (Photo Plan). Data Transfer of a Photo Plan planning in the 2D roof plan. Consideration of shading by entering a horizon line or a percentage value. Consideration of the AC and DC cable losses by using a detailed input or an overall percentage. Circuit diagram, even as dxf export. Selection of multiple feed-in tariffs.
Comprehensive overview of results:. Detailed presentation of the simulation results.
Detailed presentation of the economic results, including cash flow table. Fully presentation of all energy gains and losses. Export of all simulation results in hourly resolution to Excel.
Import of PV.SOL Pro and PV.SOL Expert projects. Self-created inverters cannot be imported; the configuration will be deleted during the import. Available languages: German, English, French, Italian, Spanish, Polish.
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Free trial versions: Transskript: Software Tutorial PV.SOL premium Map Import and Extrusion Of 3D Objects (Since Version 2016) This tutorial shows how quickly and easily you can create simple standard buildings and configure a photovoltaic system in PV.SOL premium 2016 without a costly local meeting. In this release, many time-consuming steps have been simplified, considerably accelerating the design process. This is achieved mainly through the new features 'Map Import' and 'Extrusion Of 3D Objects' First, start PV.SOL premium 2016 or a later version. You are now on the 'Welcome Page' of the application. We will now reproduce a simple house with a hipped roof. Please begin a new project.
We have chosen Los Angeles as the location. Now click on the button '3D Design' and then on the overview screen to get into the '3D Visualization'. In the dialog 'New 3D System' click on the button 'Coverable Object' and select the menu item 'Map Section' in the drop down menu. Now you see an expanded view of the dialog, in which a city map is shown on the top right. This opens a new dialog with a large map.
The map service that provides the map data is 'Bing Maps' from Microsoft. This service offers high-resolution aerial photographs, especially in urban areas. An address field is located on the top left, in which you can mark off the location of the building. We are interested in this object. Use the arrow buttons and the buttons with the magnifying glass icon next to the address field to adjust the map section, so that the target building and relevant surrounding shading objects can be seen on it.
You can scroll with the mouse wheel and you can move the image with the left mouse button. The resulting 'pixels per meter' determined by the map service are shown in the field 'scale'. If you have different data available, you can change the value. Alternatively, you can also use your own map sections, floor plans or cadastral maps and upload them as image files from the hard disk. Click on 'Start' to begin the project.
The software zooms immediately into the 'Object View' on the map, and you can begin to sketch the floor plans. At first we sketch a polygon for the target building. Click on this button to begin the process. The polygon can be drawn by clicking on the map section. Please draw accurately. You can interrupt tracing and draw a further polygon with the Enter Key.
Because the house is a building with a hipped roof, we draw a distance which marks the ridge in the next step. With the Right Mouse Button or the Escape Key you can terminate the sketching. If you have forgotten a corner, you can insert it by pressing the Shift Key + Mouse Click later on. The plan can then be extruded. Click on the polygon and select the context menu item 'Extrude 3D Object'.
It opens the dialog 'Recognize 3D Object'. Since the ridge is drawn slightly shorter than the longer side of the ground floor, the structure was automatically recognized as 'Rectangular 3D Object With Ridge' and a 'Building With Hipped Roof' is then offered as the preselection. All dimensions as well as the orientation are already taken from this building. And the map section, where the house stands, has already been transferred to the roof surfaces of the hipped roof.
Now only the data for the eaves must be entered, i.e. The height of the ground floor and the roof slope to the longer eave.
This data cannot be read out of the map section and should be requested from the end customer. Here we have some shading caused by a tree. This can also be sketched and will be included in the shading simulation. Since the object is to be covered with PV modules in the next step, it must be added to the coverable objects. Then click 'Activate'.
PV-SOL offers an automatic method of assigning the modules, which guarantees the optimal utilization of the roof space. We can execute a shading analysis now.
So hit this button. You will see some moderate shading on the bottom right. The PV module is uneconomical and can be removed. End of tutorial Thanks for watching! For more PV.SOL premium tutorials please check out my channel. You can also start discussions on feed-in tariffs, renewable energy, energy policy, funding, etc. The computer program featured is PV.SOL premium, a design software from Valentin Software in the fields of photovoltaics and renewable energy.
The software focuses on design support and yield calculation. The integrated 3D visualization determines the impact of shading on the yield. PVSOL premium also calculates the cost-effectiveness of photovoltaic systems with and without self-consumption. Similar to: Google Sketchup.